QUBIT MAPPED DIAMOND DEPENDENCY RECOMMENDATION SERVICE

Organization Name

Red Hat, Inc.

Inventor(s)

Leigh Griffin of Waterford (IE)

Stephen Coady of Waterford (IE)

QUBIT MAPPED DIAMOND DEPENDENCY RECOMMENDATION SERVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240037440 titled 'QUBIT MAPPED DIAMOND DEPENDENCY RECOMMENDATION SERVICE

Simplified Explanation

The present disclosure describes techniques for performing a quantum computing-based diamond dependency analysis. A classical diamond dependency service is used to analyze a service and determine its dependencies. The classical service then generates a quantum assembly language (qasm) file that includes a diamond dependency algorithm (dda) and a mapping of the service's configuration file and the configuration files of its dependencies to specific qubits. The classical service interfaces with one or more quantum diamond dependency services (qddss) to determine available qubits for mapping the configuration files. The qasm file is executed using the qddss to detect diamond dependencies.

• Techniques for performing a quantum computing-based diamond dependency analysis
• Classical diamond dependency service analyzes a service and determines its dependencies
• Generation of a qasm file with a diamond dependency algorithm and a mapping of configuration files to qubits
• Interface between classical diamond dependency service and quantum diamond dependency services
• Execution of the qasm file using the quantum diamond dependency services to detect diamond dependencies

Potential applications of this technology:

• Quantum computing-based analysis of dependencies in complex systems
• Optimization of resource allocation in quantum computing environments
• Identification of critical dependencies in software systems

Problems solved by this technology:

• Efficient analysis of dependencies in large-scale systems
• Improved resource allocation and utilization in quantum computing environments
• Enhanced understanding of the impact of dependencies on system performance

Benefits of this technology:

• More accurate and comprehensive analysis of dependencies
• Improved efficiency and effectiveness in resource allocation
• Enhanced system performance and reliability through better management of dependencies

Original Abstract Submitted

embodiments of the present disclosure provide techniques for performing a quantum computing-based diamond dependency analysis. a classical diamond dependency service may analyze a service and determine a set of dependencies that the service requires to execute. the classical dds may then generate a quantum assembly language (qasm) file comprising a diamond dependency algorithm (dda) and a mapping of a configuration file of the service and a configuration file of each of the set of dependencies to a respective qubit among a plurality of qubits. the classical dds may interface with one or more quantum ddss (qddss) that are each part of a respective quantum environment in order to determine qubits that are available to be mapped to the configuration files of the service and its dependencies. the classical dds may execute the qasm file using the one or more qddss to detect one or more diamond dependencies.